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|
/*
* err.h
*
* Standard error handling mechanism
*
* SOFTWARE RIGHTS
*
* We reserve no LEGAL rights to the Purdue Compiler Construction Tool
* Set (PCCTS) -- PCCTS is in the public domain. An individual or
* company may do whatever they wish with source code distributed with
* PCCTS or the code generated by PCCTS, including the incorporation of
* PCCTS, or its output, into commerical software.
*
* We encourage users to develop software with PCCTS. However, we do ask
* that credit is given to us for developing PCCTS. By "credit",
* we mean that if you incorporate our source code into one of your
* programs (commercial product, research project, or otherwise) that you
* acknowledge this fact somewhere in the documentation, research report,
* etc... If you like PCCTS and have developed a nice tool with the
* output, please mention that you developed it using PCCTS. In
* addition, we ask that this header remain intact in our source code.
* As long as these guidelines are kept, we expect to continue enhancing
* this system and expect to make other tools available as they are
* completed.
*
* Has grown to hold all kinds of stuff (err.h is increasingly misnamed)
*
* ANTLR 1.33
* Terence Parr
* Parr Research Corporation
* with Purdue University and AHPCRC, University of Minnesota
* 1989-1995
*/
#ifndef ERR_H
#define ERR_H
#include "btconfig.h"
#include <string.h>
#include <stdarg.h>
#ifdef DUM
/* Define usable bits per unsigned int word (used for set stuff) */
#ifdef PC
#define BSETWORDSIZE 16
#define BSETLOGWORDSIZE 4
#else
#define BSETWORDSIZE 32
#define BSETLOGWORDSIZE 5
#endif
#endif
#define BSETWORDSIZE 8
#define BSETLOGWORDSIZE 3 /* SetWordType is 8bits */
#define BSETMODWORD(x) ((x) & (BSETWORDSIZE-1)) /* x % BSETWORDSIZE */
#define BSETDIVWORD(x) ((x) >> BSETLOGWORDSIZE) /* x / BSETWORDSIZE */
/* This is not put into the global pccts_parser structure because it is
* hidden and does not need to be saved during a "save state" operation
*/
/* maximum of 32 bits/unsigned int and must be 8 bits/byte */
static SetWordType bitmask[] = {
0x00000001, 0x00000002, 0x00000004, 0x00000008,
0x00000010, 0x00000020, 0x00000040, 0x00000080
};
void
zzresynch(SetWordType *wd,SetWordType mask)
{
static int consumed = 1;
/* if you enter here without having consumed a token from last resynch
* force a token consumption.
*/
if ( !consumed ) {zzCONSUME; return;}
/* if current token is in resynch set, we've got what we wanted */
if ( wd[LA(1)]&mask || LA(1) == zzEOF_TOKEN ) {consumed=0; return;}
/* scan until we find something in the resynch set */
while ( !(wd[LA(1)]&mask) && LA(1) != zzEOF_TOKEN ) {zzCONSUME;}
consumed=1;
}
void
zzconsumeUntil(SetWordType *st)
{
while ( !zzset_el(LA(1), st) ) { zzCONSUME; }
}
void
zzconsumeUntilToken(int t)
{
while ( LA(1)!=t ) { zzCONSUME; }
}
/* input looks like:
* zzFAIL(k, e1, e2, ...,&zzMissSet,&zzMissText,&zzBadTok,&zzBadText)
* where the zzMiss stuff is set here to the token that did not match
* (and which set wasn't it a member of).
*/
void
zzFAIL(int k, ...)
{
#ifdef LL_K
static char text[LL_K*ZZLEXBUFSIZE+1];
SetWordType *f[LL_K];
#else
static char text[ZZLEXBUFSIZE+1];
SetWordType *f[1];
#endif
SetWordType **miss_set;
char **miss_text;
int *bad_tok;
char **bad_text;
int *err_k;
int i;
va_list ap;
/* Removed because it shadows a parameter. gcc 3.4 complains.
I think removing it preserves the behavior of gcc 3.3 and previous.
int k;
*/
va_start(ap, k);
text[0] = '\0';
for (i=1; i<=k; i++) /* collect all lookahead sets */
{
f[i-1] = va_arg(ap, SetWordType *);
}
for (i=1; i<=k; i++) /* look for offending token */
{
if ( i>1 ) strcat(text, " ");
strcat(text, LATEXT(i));
if ( !zzset_el((unsigned)LA(i), f[i-1]) ) break;
}
miss_set = va_arg(ap, SetWordType **);
miss_text = va_arg(ap, char **);
bad_tok = va_arg(ap, int *);
bad_text = va_arg(ap, char **);
err_k = va_arg(ap, int *);
if ( i>k )
{
/* bad; lookahead is permutation that cannot be matched,
* but, the ith token of lookahead is valid at the ith position
* (The old LL sub 1 (k) versus LL(k) parsing technique)
*/
*miss_set = NULL;
*miss_text = zzlextext;
*bad_tok = LA(1);
*bad_text = LATEXT(1);
*err_k = k;
return;
}
/* fprintf(stderr, "%s not in %dth set\n", zztokens[LA(i)], i);*/
*miss_set = f[i-1];
*miss_text = text;
*bad_tok = LA(i);
*bad_text = LATEXT(i);
if ( i==1 ) *err_k = 1;
else *err_k = k;
}
void
zzsave_antlr_state(zzantlr_state *buf)
{
#ifdef LL_K
int i;
#endif
#ifdef ZZCAN_GUESS
buf->guess_start = zzguess_start;
buf->guessing = zzguessing;
#endif
buf->asp = zzasp;
#ifdef GENAST
buf->ast_sp = zzast_sp;
#endif
#ifdef ZZINF_LOOK
buf->inf_labase = zzinf_labase;
buf->inf_last = zzinf_last;
#endif
#ifdef DEMAND_LOOK
buf->dirty = zzdirty;
#endif
#ifdef LL_K
for (i=0; i<LL_K; i++) buf->tokenLA[i] = zztokenLA[i];
for (i=0; i<LL_K; i++) strcpy(buf->textLA[i], zztextLA[i]);
buf->lap = zzlap;
buf->labase = zzlabase;
#else
buf->token = zztoken;
strcpy(buf->text, zzlextext);
#endif
}
void
zzrestore_antlr_state(zzantlr_state *buf)
{
#ifdef LL_K
int i;
#endif
#ifdef ZZCAN_GUESS
zzguess_start = buf->guess_start;
zzguessing = buf->guessing;
#endif
zzasp = buf->asp;
#ifdef GENAST
zzast_sp = buf->ast_sp;
#endif
#ifdef ZZINF_LOOK
zzinf_labase = buf->inf_labase;
zzinf_last = buf->inf_last;
#endif
#ifdef DEMAND_LOOK
zzdirty = buf->dirty;
#endif
#ifdef LL_K
for (i=0; i<LL_K; i++) zztokenLA[i] = buf->tokenLA[i];
for (i=0; i<LL_K; i++) strcpy(zztextLA[i], buf->textLA[i]);
zzlap = buf->lap;
zzlabase = buf->labase;
#else
zztoken = buf->token;
strcpy(zzlextext, buf->text);
#endif
}
void
zzedecode(SetWordType *a)
{
register SetWordType *p = a;
register SetWordType *endp = &(p[zzSET_SIZE]);
register unsigned e = 0;
if ( zzset_deg(a)>1 ) fprintf(stderr, " {");
do {
register SetWordType t = *p;
register SetWordType *b = &(bitmask[0]);
do {
if ( t & *b ) fprintf(stderr, " %s", zztokens[e]);
e++;
} while (++b < &(bitmask[sizeof(SetWordType)*8]));
} while (++p < endp);
if ( zzset_deg(a)>1 ) fprintf(stderr, " }");
}
#ifndef USER_ZZSYN
/* standard error reporting function */
void
zzsyn(char *text, int tok, char *egroup, SetWordType *eset, int etok, int k, char *bad_text)
{
fprintf(stderr, "line %d: syntax error at \"%s\"", zzline, (tok==zzEOF_TOKEN)?"EOF":bad_text);
if ( !etok && !eset ) {fprintf(stderr, "\n"); return;}
if ( k==1 ) fprintf(stderr, " missing");
else
{
fprintf(stderr, "; \"%s\" not", bad_text);
if ( zzset_deg(eset)>1 ) fprintf(stderr, " in");
}
if ( zzset_deg(eset)>0 ) zzedecode(eset);
else fprintf(stderr, " %s", zztokens[etok]);
if ( strlen(egroup) > 0 ) fprintf(stderr, " in %s", egroup);
fprintf(stderr, "\n");
}
#endif
/* is b an element of set p? */
int
zzset_el(unsigned b, SetWordType *p)
{
return( p[BSETDIVWORD(b)] & bitmask[BSETMODWORD(b)] );
}
int
zzset_deg(SetWordType *a)
{
/* Fast compute degree of a set... the number
of elements present in the set. Assumes
that all word bits are used in the set
*/
register SetWordType *p = a;
register SetWordType *endp = &(a[zzSET_SIZE]);
register int degree = 0;
if ( a == NULL ) return 0;
while ( p < endp )
{
register SetWordType t = *p;
register SetWordType *b = &(bitmask[0]);
do {
if (t & *b) ++degree;
} while (++b < &(bitmask[sizeof(SetWordType)*8]));
p++;
}
return(degree);
}
#ifdef DEMAND_LOOK
#ifdef LL_K
int
_zzmatch(int _t, char **zzBadText, char **zzMissText,
int *zzMissTok, int *zzBadTok,
SetWordType **zzMissSet)
{
if ( zzdirty==LL_K ) {
zzCONSUME;
}
if ( LA(1)!=_t ) {
*zzBadText = *zzMissText=LATEXT(1);
*zzMissTok= _t; *zzBadTok=LA(1);
*zzMissSet=NULL;
return 0;
}
zzMakeAttr
zzdirty++;
zzlabase++;
return 1;
}
int
_zzmatch_wsig(int _t)
{
if ( zzdirty==LL_K ) {
zzCONSUME;
}
if ( LA(1)!=_t ) {
return 0;
}
zzMakeAttr
zzdirty++;
zzlabase++;
return 1;
}
#else
int
_zzmatch(int _t, char **zzBadText, char **zzMissText,
int *zzMissTok, int *zzBadTok, SetWordType **zzMissSet)
{
if ( zzdirty ) {zzCONSUME;}
if ( LA(1)!=_t ) {
*zzBadText = *zzMissText=LATEXT(1);
*zzMissTok= _t; *zzBadTok=LA(1);
*zzMissSet=NULL;
return 0;
}
zzdirty = 1;
zzMakeAttr
return 1;
}
int
_zzmatch_wsig(int _t)
{
if ( zzdirty ) {zzCONSUME;}
if ( LA(1)!=_t ) {
return 0;
}
zzdirty = 1;
zzMakeAttr
return 1;
}
#endif /*LL_K*/
#else
int
_zzmatch(int _t, const char **zzBadText, const char **zzMissText,
int *zzMissTok, int *zzBadTok,
SetWordType **zzMissSet)
{
if ( LA(1)!=_t ) {
*zzBadText = *zzMissText=LATEXT(1);
*zzMissTok= _t; *zzBadTok=LA(1);
*zzMissSet=NULL;
return 0;
}
zzMakeAttr
return 1;
}
int
_zzmatch_wsig(int _t)
{
if ( LA(1)!=_t ) return 0;
zzMakeAttr
return 1;
}
#endif /*DEMAND_LOOK*/
#ifdef ZZINF_LOOK
void
_inf_zzgettok(void)
{
if ( zzinf_labase >= zzinf_last )
{NLA = zzEOF_TOKEN; strcpy(NLATEXT, "");}
else {
NLA = zzinf_tokens[zzinf_labase];
zzline = zzinf_line[zzinf_labase]; /* wrong in 1.21 */
strcpy(NLATEXT, zzinf_text[zzinf_labase]);
zzinf_labase++;
}
}
#endif
#ifdef ZZINF_LOOK
/* allocate default size text,token and line arrays;
* then, read all of the input reallocing the arrays as needed.
* Once the number of total tokens is known, the LATEXT(i) array (zzinf_text)
* is allocated and it's pointers are set to the tokens in zzinf_text_buffer.
*/
void
zzfill_inf_look(void)
{
int tok, line;
int zzinf_token_buffer_size = ZZINF_DEF_TOKEN_BUFFER_SIZE;
int zzinf_text_buffer_size = ZZINF_DEF_TEXT_BUFFER_SIZE;
int zzinf_text_buffer_index = 0;
int zzinf_lap = 0;
/* allocate text/token buffers */
zzinf_text_buffer = (char *) malloc(zzinf_text_buffer_size);
if ( zzinf_text_buffer == NULL )
{
fprintf(stderr, "cannot allocate lookahead text buffer (%d bytes)\n",
zzinf_text_buffer_size);
exit(PCCTS_EXIT_FAILURE);
}
zzinf_tokens = (int *) calloc(zzinf_token_buffer_size,sizeof(int));
if ( zzinf_tokens == NULL )
{
fprintf(stderr, "cannot allocate token buffer (%d tokens)\n",
zzinf_token_buffer_size);
exit(PCCTS_EXIT_FAILURE);
}
zzinf_line = (int *) calloc(zzinf_token_buffer_size,sizeof(int));
if ( zzinf_line == NULL )
{
fprintf(stderr, "cannot allocate line buffer (%d ints)\n",
zzinf_token_buffer_size);
exit(PCCTS_EXIT_FAILURE);
}
/* get tokens, copying text to text buffer */
zzinf_text_buffer_index = 0;
do {
zzgettok();
line = zzreal_line;
while ( zzinf_lap>=zzinf_token_buffer_size )
{
zzinf_token_buffer_size += ZZINF_BUFFER_TOKEN_CHUNK_SIZE;
zzinf_tokens = (int *) realloc(zzinf_tokens,
zzinf_token_buffer_size*sizeof(int));
if ( zzinf_tokens == NULL )
{
fprintf(stderr, "cannot allocate lookahead token buffer (%d tokens)\n",
zzinf_token_buffer_size);
exit(PCCTS_EXIT_FAILURE);
}
zzinf_line = (int *) realloc(zzinf_line,
zzinf_token_buffer_size*sizeof(int));
if ( zzinf_line == NULL )
{
fprintf(stderr, "cannot allocate lookahead line buffer (%d ints)\n",
zzinf_token_buffer_size);
exit(PCCTS_EXIT_FAILURE);
}
}
while ( (zzinf_text_buffer_index+strlen(NLATEXT)+1) >= zzinf_text_buffer_size )
{
zzinf_text_buffer_size += ZZINF_BUFFER_TEXT_CHUNK_SIZE;
zzinf_text_buffer = (char *) realloc(zzinf_text_buffer,
zzinf_text_buffer_size);
if ( zzinf_text_buffer == NULL )
{
fprintf(stderr, "cannot allocate lookahead text buffer (%d bytes)\n",
zzinf_text_buffer_size);
exit(PCCTS_EXIT_FAILURE);
}
}
/* record token and text and line of input symbol */
tok = zzinf_tokens[zzinf_lap] = NLA;
strcpy(&zzinf_text_buffer[zzinf_text_buffer_index], NLATEXT);
zzinf_text_buffer_index += strlen(NLATEXT)+1;
zzinf_line[zzinf_lap] = line;
zzinf_lap++;
} while (tok!=zzEOF_TOKEN);
zzinf_labase = 0;
zzinf_last = zzinf_lap-1;
/* allocate ptrs to text of ith token */
zzinf_text = (char **) calloc(zzinf_last+1,sizeof(char *));
if ( zzinf_text == NULL )
{
fprintf(stderr, "cannot allocate lookahead text buffer (%d)\n",
zzinf_text_buffer_size);
exit(PCCTS_EXIT_FAILURE);
}
zzinf_text_buffer_index = 0;
zzinf_lap = 0;
/* set ptrs so that zzinf_text[i] is the text of the ith token found on input */
while (zzinf_lap<=zzinf_last)
{
zzinf_text[zzinf_lap++] = &zzinf_text_buffer[zzinf_text_buffer_index];
zzinf_text_buffer_index += strlen(&zzinf_text_buffer[zzinf_text_buffer_index])+1;
}
}
#endif
int
_zzsetmatch(SetWordType *e, char **zzBadText, char **zzMissText,
int *zzMissTok, int *zzBadTok,
SetWordType **zzMissSet)
{
#ifdef DEMAND_LOOK
#ifdef LL_K
if ( zzdirty==LL_K ) {zzCONSUME;}
#else
if ( zzdirty ) {zzCONSUME;}
#endif
#endif
if ( !zzset_el((unsigned)LA(1), e) ) {
*zzBadText = LATEXT(1); *zzMissText=NULL;
*zzMissTok= 0; *zzBadTok=LA(1);
*zzMissSet=e;
return 0;
}
#ifdef DEMAND_LOOK
#ifdef LL_K
zzdirty++;
#else
zzdirty = 1;
#endif
#endif
zzMakeAttr
return 1;
}
int
_zzmatch_wdfltsig(int tokenWanted, SetWordType *whatFollows)
{
#ifdef DEMAND_LOOK
#ifdef LL_K
if ( zzdirty==LL_K ) {
zzCONSUME;
}
#else
if ( zzdirty ) {zzCONSUME;}
#endif
#endif
if ( LA(1)!=tokenWanted )
{
fprintf(stderr,
"line %d: syntax error at \"%s\" missing %s\n",
zzline,
(LA(1)==zzEOF_TOKEN)?"<eof>":(char*)LATEXT(1),
zztokens[tokenWanted]);
zzconsumeUntil( whatFollows );
return 0;
}
else {
zzMakeAttr
#ifdef DEMAND_LOOK
#ifdef LL_K
zzdirty++;
zzlabase++;
#else
zzdirty = 1;
#endif
#else
/* zzCONSUME; consume if not demand lookahead */
#endif
return 1;
}
}
int
_zzsetmatch_wdfltsig(SetWordType *tokensWanted,
int tokenTypeOfSet,
SetWordType *whatFollows)
{
#ifdef DEMAND_LOOK
#ifdef LL_K
if ( zzdirty==LL_K ) {zzCONSUME;}
#else
if ( zzdirty ) {zzCONSUME;}
#endif
#endif
if ( !zzset_el((unsigned)LA(1), tokensWanted) )
{
fprintf(stderr,
"line %d: syntax error at \"%s\" missing %s\n",
zzline,
(LA(1)==zzEOF_TOKEN)?"<eof>":(char*)LATEXT(1),
zztokens[tokenTypeOfSet]);
zzconsumeUntil( whatFollows );
return 0;
}
else {
zzMakeAttr
#ifdef DEMAND_LOOK
#ifdef LL_K
zzdirty++;
zzlabase++;
#else
zzdirty = 1;
#endif
#else
/* zzCONSUME; consume if not demand lookahead */
#endif
return 1;
}
}
int
_zzsetmatch_wsig(SetWordType *e)
{
#ifdef DEMAND_LOOK
#ifdef LL_K
if ( zzdirty==LL_K ) {zzCONSUME;}
#else
if ( zzdirty ) {zzCONSUME;}
#endif
#endif
if ( !zzset_el((unsigned)LA(1), e) ) return 0;
#ifdef DEMAND_LOOK
#ifdef LL_K
zzdirty++;
#else
zzdirty = 1;
#endif
#endif
zzMakeAttr
return 1;
}
#ifdef USER_ZZMODE_STACK
static int zzmstk[ZZMAXSTK] = { -1 };
static int zzmdep = 0;
static char zzmbuf[70];
void
zzmpush( int m )
{
if(zzmdep == ZZMAXSTK - 1) {
sprintf(zzmbuf, "Mode stack overflow ");
zzerr(zzmbuf);
} else {
zzmstk[zzmdep++] = zzauto;
zzmode(m);
}
}
void
zzmpop( void )
{
if(zzmdep == 0)
{ sprintf(zzmbuf, "Mode stack underflow ");
zzerr(zzmbuf);
}
else
{ zzmdep--;
zzmode(zzmstk[zzmdep]);
}
}
void
zzsave_mode_stack( int modeStack[], int *modeLevel )
{
int i;
memcpy(modeStack, zzmstk, sizeof(zzmstk));
*modeLevel = zzmdep;
zzmdep = 0;
return;
}
void
zzrestore_mode_stack( int modeStack[], int *modeLevel )
{
int i;
memcpy(zzmstk, modeStack, sizeof(zzmstk));
zzmdep = *modeLevel;
return;
}
#endif /* USER_ZZMODE_STACK */
#endif /* ERR_H */
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